JPS63262484A - Corrosion inhibitor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to mixtures of phosphates and phosphites and the use of such mixtures as corrosion inhibitors, in particular for metal surfaces.

According to the present invention, a) the following formula! A compound represented by, and R-(-0-C
, H211-)ll-0-1'-OH(1)b) Compound Rsu(QC1lIH2,-), -0-P-OH(II
)+1 [In the above formula, R is C1/%J J) alkyl, CB AI
,) alkyl-C5, vo allyl or -G O-C
B selected from Nxz alkyl or -CO-C, ~, youralkenyl, M each independently represents hydrogen, an alkali metal ion or a molar equivalent of an alkaline earth metal, R1
is M (defined above) or formula a1R-(OCn
"2n-)x-(R), where n each independently represents 2 or 3, X each independently represents 0 or an integer from 1 to 15, and R2 independently of R m each independently represents 2 or 3, and y represents 0 or an integer from 1 to 15] (corrosion inhibiting composition).

For the avoidance of doubt, in this specification any group that can be straight or branched is intended to be straight or branched unless otherwise specified. Furthermore, when symbols appear more than once in a formula, their meanings are assumed to be independent of each other unless otherwise specified.

Preferably, R is R'f C6-1s alkyl and 0
More preferably R is selected from 08 to !2 alkyl phenyl, most preferably R is selected from R' octylphenyl, nonylphenyl and dodecylphenyl.

Preferably R2 is defined as R2', ie R' independently of R'. More preferably R2 is R2″ or 0
6-II alkyl. Most preferably R2 is R2''
That is, it is 08-12 alkyl.

M is preferably M', i.e., an alkaline ion, more preferably sodium.

R1 is preferably selected from R1', ie M or c, ~8 alkyl.

n is preferably 2.

m is preferably 2.

X is preferably 0 or an integer of 1-10.

y is preferably 0 or an integer from 1 to 10.

Preferably, in the corrosion inhibiting composition according to the invention, the ratio of phosphate to phosphite is between 1:4 and 20:1 (by weight).

formula! The compounds of (1) and (2) are known or can be produced from known compounds by known methods.

Corrosion inhibiting compositions according to the invention preferably include one or more film formers. A preferred film forming agent is a polyacrylate film forming agent. More preferably, the film-forming agent consists of an aqueous acrylic resin dispersion, especially as described in GB 1266246.

These dispersions can be prepared by "emulsion" polymerization and generally contain 30-60% active ingredient.

Compositions containing film-forming agents according to the invention can be diluted with water. Preferably such compositions are added as an aqueous dispersion. Furthermore, the present invention provides a polymer composition comprising an acrylic resin and a corrosion inhibiting composition according to the present invention.

Preferably, the amount of phosphate and phosphite present in the polymer composition according to the invention is from 0.04 to 16 mff1%, based on the weight of the acrylic resin present.

Preferably, the polymer composition according to the invention comprises a softener to plasticize the polymeric material present. Examples of such softeners include di-CIN4 alkyl esters of aromatic or aliphatic dicarboxylic acids.

The polymeric film-forming agent of the composition according to the invention may be copolymerized with one or more comonomers.

Such comonomers are preferably selected from one or more of acrylic acid, methacrylic acid, crotonic acid, acrylamide, styrene, ethylene and propylene.

The compositions according to the invention preferably contain pH regulators, biocides, surfactants, alkaline total pressure salts of benzoic acid (e.g. sodium benzoate), benztriazoles, tolyltriazoles and light stabilizers. Contains one or more additives.

Preferred pH adjusting agents include sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium acetate, mono- or di-sodium orthophosphate and mono-, di- or triethanolamine (preferably monoethanolamine).

Preferred biocides include formaldehyde, p-chlorophenylpropanediol and dilauryldimethylammonium chloride.

Preferred surfactants include anionic and nonionic surfactants.

Preferred light stabilizers are N-unsubstituted, N-alkyl or N-
-acyl-substituted 2,2,6,6-titramethylpiveridinyl light stabilizers and UV absorbers.

Preferably, the polymer composition according to the invention comprises:

100 parts of a 30-60% aqueous acrylic resin dispersion, 0.01-102 parts of a compound of formula 1, 0.01-6.0 parts of a compound of formula (■), 0-2.5 parts of alkali benzoic acid. Metal salt, 0-0.3
1 part of a mixture of benztriazole and tolyltriazole, and 0 to 5 parts of a softener.

If the compositions according to the invention contain film-forming agents, they are particularly suitable as corrosion inhibitors for the protection of gold mud surfaces.

The composition according to the present invention is particularly effective in inhibiting oxidative corrosion of fully flexible objects and surfaces made of, for example, steel, gray cast iron, aluminum, magnesium, iron, zinc, copper or tin and their alloys. It is. Compositions according to the invention containing film-forming agents are effective for protecting materials that can be protected against the effects of corrosion by a film. An example of such a material is “Well inger-Gi+w
+acl-Bodenstein'.

WorksLoff-Tabellen dcr
Metalle″l 7 eightuflage.

81 can be found in Fred K8rner Verlap, e.

Compositions containing film-forming agents according to the present invention are useful for long-term indoor corrosion protection and temporary outdoor corrosion protection.

Preferably, the composition according to the invention comprising a film-forming agent has a minimum film-forming temperature (M F
Forming a film or coating at T).

These compositions can be applied to the surface to be protected by known methods, for example by dipping, spraying or brushing. Depending on the use of the material to be coated, the thickness of the single film is preferably up to 60μ.

Alternatively, an intermediate drying step can be used to form a two-layer film coating, such a two-layer film having a thickness of 80μ
Preferably, the thickness is up to .

After applying the χ■ composition to the material to be coated, the composition according to the invention is dried, preferably at a temperature of 20 DEG to 70 DEG C., with or without a stream of air. The composition according to the invention may be prewarmed, preferably at a temperature of up to 45° C. before setting the film.

For optimal adhesion of the film layer to the surface, it is preferred to degrease the surface before applying the composition according to the invention. The compositions according to the invention can also be applied to rusted surfaces as long as all loose rust particles have been removed beforehand and will help prevent further rusting.

Other coatings or films may be applied to the surface to which the composition of the invention has been applied (after the composition has dried to form a film or coating).

The polymer compositions according to the invention form transparent, colorless films or coatings that are heat stable at temperatures up to 230°C. Other advantages of the compositions according to the invention are that they are dilutable with water, do not require the presence of lead and zinc ions (ecologically undesirable), are non-toxic and biologically degradable. That is to say.

For clarity, except in the following examples, references to compounds of formula (1) also include mixtures of compounds of formula (2), and references to compounds of formula U include mixtures of compounds of formula (2). shall be held.

The following examples serve to further illustrate the invention.

Unless otherwise specified, parts and percentages are by weight and temperatures are in °C. - Example 1 The following compositions were prepared by mixing together thoroughly at room temperature (20-25°C).

850 parts of a commercially available (
from Degussa), aqueous dispersion (containing 50% active ingredient), 1034 parts of N-butyl alcohol and formula 1asC61
117-C611~-0-(CI+2-CI!2-0-
) @ -H(la) mixture with compound (ratio of 281)
and phosphorus pentoxide at pH 8.
Phosphate mixture, 4.00 parts sodium octyl phosphite, 4.30 parts sodium benzoate, 0.12 parts benztriazole, 0.03 parts tolyltriazole, 0.05 parts sodium salt of xylene sulfonic acid. , 10
parts of dibutyl ester of sebacic acid, and 130.16 parts of water.

The resulting composition had a viscosity of 50 rpm and a pH of 7°7.
, measured by Brookfield viscosity type,
It was 220 cp.

Example 2 The following composition was prepared at room temperature with thorough stirring.

82 parts of a 57% aqueous solution of the phosphate mixture of Example 1 (47%
5 parts sodium octyl phosphite, 6.5 parts benztriazole, 1, 9 parts tolyltriazole, and 4.6 parts water.

Example 3 An 80 mm x 150 mm sheet of unalloyed Steel 37 was papered and degreased and then immersed in a bath containing the composition of Example 1 at room temperature. After 10 seconds, the sheets were removed and air dried.Then the treated sheets were subjected to the sweat test according to German Industrial Standard (DIN) test method 50017 and the salt spray drop test according to DIN 5S50021.

Compared to the untreated steel sheet, the sheet treated according to Example 3 showed superior corrosion protection.

Even after six months of exposure to the elements, the sheet treated according to Example 3 showed no corrosion.

Example 4 A sheet of the same unalloyed steel 37 as in Example 3 was papered and degreased and then immersed in a bath of the composition according to Example 2 at room temperature. It was also possible to spray the composition of Example 2 onto a steel sheet. After drying for 30 minutes, the same process was repeated. In an industrial environment, part 4 5
Even after months of outdoor exposure, these sheets showed no corrosion.

If the sheets were only paper-finished, without degreasing, and with only one pass of the composition according to Example 2, the protection against corrosion after 6 months of outdoor exposure was still sufficient for the preservation of the tubes. Ta.

Claims (1)

[Scope of Claims] 1. a) A compound represented by the following formula I, and ▲Numerical formula,
There are chemical formulas, tables, etc. ▼ (I) b) Compounds represented by the following formula II ▲ There are numerical formulas, chemical formulas, tables, etc. ▼ (II) [In the above formula, R is C_1_ to_2_2 alkyl, C_8_
~_2_2 alkyl-C_5_-_6 allyl or -C
O-C_8_~_2_2 alkyl or -CO-C_8
selected from _~_2_2 alkenyl, each M independently having hydrogen, an alkali metal ion or a molar equivalent of an alkaline earth metal, and R_1 is M (as defined above) or formula a, R-(OC_nH_2_n-) ＿x-(a)
represents a group represented by, n each independently represents 2 or 3, x each independently represents 0 or an integer of 1 to 15, R_2 represents what is defined in the above R independently of R, m each independently represents 2 or 3, and y represents 0 or an integer from 1 to 15] (corrosion inhibiting composition). 2. The composition according to claim 1, comprising a film forming agent. 3. Containing one or more other additives selected from pH adjusters, biocides, surfactants, alkali metal salts of benzoic acid, benztriazole, tolyltriazole and light stabilizers, or 2. Composition according to item 2. 4, R is R', that is, C_6_-_1_0 alkyl and C
The composition according to any one of claims 1 to 3, selected from _8_ to _1_0 alkylphenyl. 5. A composition according to any of claims 1 to 4, wherein R_2 is selected from R_2', i.e. C_6_-_1_8 alkyl and C_8_-_1_0 alkylphenyl. 6. The composition according to any one of claims 1 to 5, wherein R_1 is R_1', ie M or C_1_-_8 alkyl as defined in claim 1. 7. Acrylic resin, a) A compound represented by the following formula I, and ▲ There are mathematical formulas, chemical formulas, tables, etc. ▼ ( I ) b) A compound represented by the following formula II ▲ There are mathematical formulas, chemical formulas, tables, etc. ▼ ( II) [In the above formula, R is C_1_ to_2_2 alkyl, C_8_
~_2_2 alkyl-C_5_-_6 allyl or -C
O-C_8_~_2_2 alkyl or -CO-C_8
selected from _~_2_2 alkenyl, each M independently representing hydrogen, an alkali metal ion or a molar equivalent of an alkaline earth metal, and R_1 is M (as defined above) or the formula a, R-(OC_nH_2_n-)_x -(a)
represents a group represented by, n each independently represents 2 or 3, x each independently represents 0 or an integer of 1 to 15, R_2 represents what is defined in the above R independently of R, m each independently represents 2 or 3, and y represents 0 or an integer from 1 to 15. 8. The composition further comprises one or more other additives selected from pH adjusters, biocides, surfactants, alkali metal salts of benzoic acid, benztriazole, tolyltriazole, and light stabilizers. polymer composition. 9, R is R', that is, C_6_-_1_8 alkyl and C
The composition according to claim 7 or 8, selected from _8_ to_1_8 alkylphenyl. 10. A composition according to any of claims 7 to 9, wherein R_2 is selected from R_2', i.e. C_6_-_1_8 alkyl and C_8_-_1_8 alkylphenyl. 11. The composition according to any of claims 7 to 10, wherein R_1 is R_1', ie M or C_1_-_8 alkyl as defined in claim 1. 12. A method of treating a material against corrosion, comprising applying the composition of claim 1 to the material. 13. A method of treating a material against corrosion, comprising applying the composition of claim 7 to the material.